瞭解如何執行熱分析,同時考量到輻射、傳導和對流。 考量傳導、對流和輻射的影響,來取得精確的熱結果。 測量溫度和熱通量。
Lesson
3 月 前
ENG
Review the basic functionality of the SOLIDWORKS Dynamics module. Show activation of SOLIDWORKS Simulation Add-In. Review the available modules for specific dynamic load times.
Lesson
3 月 前
ENG
Setup initial dynamic simulation, solve and postprocess the results. Understand the importance of natural frequencies in dynamic simulations. Compare the dynamic and static results. Setup, run and postprocess a basic transient study Calculate a sufficient number of natural frequencies Use the mass participation factor to estimate a sufficient number of natural frequencies Run dynamic simulation for slow and fast forces, and compare their results
Lesson
3 月 前
ENG
Setup, run and postprocess a dynamic simulation with the base motion shock excitation. Understand the optimum mesh design, and get more familiar with the estimation of the minimum number of natural frequencies. Understand the basics of damping. Setup, run and postprocess a transient study Define base excitation shock load Use the mass participation factor to select a sufficient number of natural frequencies Optimize the finite element mesh for dynamic simulation Define structural damping Calculate the maximum time step Use remote mass to simplify the model
Lesson
3 月 前
ENG
Setup, run and postprocess a harmonic simulation. Understand and practice the frequency domain excitation definition. Practice postprocessing results from the harmonic study. Setup, run and postprocess a harmonic study Use the mass participation factor to select a sufficient number of natural frequencies Optimize the finite element mesh for dynamic simulation Define the harmonic load in the frequency domain Postprocess results from the harmonic study
Lesson
3 月 前
ENG
瞭解如何以建立子模型的方式分析較大組合件中的一部分,以節省時間並取得較精確的結果。 從父系研究中產生子模型研究。 探索如何將負載自動轉移至子模型研究。 節省時間和計算資源,同時保持精確的結果。 使用 eDrawings 儲存結果。
Lesson
3 月 前
ENG